SEARCH

SEARCH BY CITATION

REFERENCES

  • Bauer H. & Thöni W. (1988) Photosynthetic light acclimation in fully developed leaves of the juvenile and adult life phases of Hedera helix. Physiologia Plantarum 73, 3137.
  • Von Caemmerer S. & Farquhar G.D. (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta 153, 376387.
  • Von Caemmerer S., Evans J.R., Hudson G.S. & Andrews T.J. (1994) The kinetics of ribulose-1,5-bisphosphate carboxylase/oxygenase in vivo inferred from measurements of photosynthesis in leaves of transgenic tobacco. Planta 195, 8897.
  • Chow W.S. & Anderson J.M. (1987) Photosynthetic responses of Pisum sativum to an increase in irradiance during growth. I. Photosynthetic activities. Australian Journal of Plant Physiology 14, 18.
  • Cui M., Vogelmann T.C. & Smith W.K. (1991) Chlorophyll and light gradients in sun and shade leaves of Spinacia oleracea. Plant, Cell and Environment 14, 493500.
  • Evans J.R. (1987) The dependence of quantum yield on wavelength and growth irradiance. Australian Journal of Plant Physiology 14, 6979.
  • Evans J.R. (1993) Photosynthetic acclimation and nitrogen partitioning within a lucerne canopy. II. Stability through time and comparison with a theoretical optimum. Australian Journal of Plant Physiology 20, 6982.
  • Evans J.R. (1995) Carbon fixation profiles do reflect light absorption profiles in leaves. Australian Journal of Plant Physiology 22, 865873.
  • Evans J.R. (1999) Leaf anatomy enables more equal access to light and CO2 between chloroplasts. New Phytologist 143, 93104.
  • Evans J.R., Jakobsen I. & Ögren E. (1993) Photosynthetic light response curves. 2. Gradients of light absorption and photosynthetic capacity. Planta 189, 191200.
  • Farquhar G.D. (1989) Models of integrated photosynthesis of cells and leaves. Philosophical Transactions of the Royal Society of London Series B-Biological Sciences 323, 357367.
  • Farquhar G.D., Von Caemmerer S. & Berry J.A. (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149, 7890.
  • Fukshansky L. & Von Remisowsky A.M. (1992) A theoretical-study of the light microenvironment in a leaf in relation to photosynthesis. Plant Science 86, 167182.
  • Genty B., Briantais J.M. & Baker N.R. (1989) The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochimica et Biophysica Acta 990, 8792.
  • Jeje A. & Zimmermann M. (1983) The anisotropy of the mesophyll and CO2 capture sites in Vicia faba L. leaves at low light intensities. Journal of Experimental Botany 34, 16761694.
  • Kagawa T. & Wada M. (1999) Chloroplast-avoidance response induced by high-fluence blue light in prothallial cells of the fern Adiantum capillus-veneris as analyzed by microbeam irradiation. Plant Physiology 119, 917923.
  • Koizumi M., Takahashi K., Mineuchi K., Nakamura T. & Kano H. (1998) Light gradients and the transverse distribution of chlorophyll fluorescence in mangrove and camellia leaves. Annals of Botany 81, 527533.
  • Leverenz J.W. (1988) The effects of illumination sequence, CO2 concentration, temperature and acclimation on the convexity of the photosynthetic light response curve. Physiologia Plantarum 74, 332341.
  • McCree K.J. (1971) The action spectrum, absorptance and quantum yield of photosynthesis in crop plants. Agricultural Meteorology 9, 191216.
  • Moss D.N. (1964) Optimum lighting of leaves. Crop Science 4, 131136.
  • Nishio J.N. (2000) Why are higher plants green? Evolution of the higher plant photosynthetic pigment complement. Plant, Cell and Environment 23, 539548.
  • Nishio J.N., Sun J.D. & Vogelmann T.C. (1993) Carbon fixation gradients across spinach leaves do not follow internal light gradients. Plant Cell 5, 953961.
  • Ögren E. & Evans J.R. (1993) Photosynthetic light response curves. 1. The influence of CO2 partial pressure and leaf inversion. Planta 189, 182190.
  • Oja V.M. & Laisk A.K. (1976) Adaptation of the photosynthesis apparatus to the light profile in the leaf. Soviet Plant Physiology 23, 381386.
  • Outlaw W.H.J. & Fisher D.B. (1975) Compartmentation in Vicia faba leaves. III. Photosynthesis in the spongy and palisade parenchyma. Australian Journal of Plant Physiology 2, 435439.
  • Park Y.I., Chow W.S. & Anderson J.M. (1996) Chloroplast movement in the shade plant Tradescantia albiflora helps protect photosystem II against light stress. Plant Physiology 111, 867875.
  • Peterson R.B., Oja V. & Laisk A. (2001) Chlorophyll fluorescence at 680 and 730 nm and leaf photosynthesis. Photosynthesis Research 70, 185196.
  • Richter T. & Fukshansky L. (1996a) Optics of a bifacial leaf. 1. A novel combined procedure for deriving the optical parameters. Photochemistry and Photobiology 63, 507516.
  • Richter T. & Fukshansky L. (1996b) Optics of a bifacial leaf. 2. Light regime as affected by the leaf structure and the light source. Photochemistry and Photobiology 63, 517527.
  • Richter T. & Fukshansky L. (1998) Optics of a bifacial leaf. 3. Implications for photosynthetic performance. Photochemistry and Photobiology 68, 337352.
  • Satoh M., Kriedemann P.E. & Loveys B.R. (1977) Changes in photosynthetic activity and related processes following decapitation in Mulberry trees. Physiologia Plantarum 41, 203210.
  • Schreiber U., Kuhl M., Klimant I. & Reising H. (1996) Measurement of chlorophyll fluorescence within leaves using a modified pam fluorometer with a fiber-optic microprobe. Photosynthesis Research 47, 103109.
  • Sun J. (1996) Photosynthetic Gradients across Spinach Leaves. PhD Thesis. University of Wyoming, Laramie, WY, USA.
  • Sun J.D. & Nishio J.N. (2001) Why abaxial illumination limits photosynthetic carbon fixation in spinach leaves. Plant and Cell Physiology 42, 18.
  • Sun J.D., Nishio J.N. & Vogelmann T.C. (1998) Green light drives CO2 fixation deep within leaves. Plant and Cell Physiology 39, 10201026.
  • Takahashi K., Mineuchi K., Nakamura T., Koizumi M. & Kano H. (1994) A system for imaging transverse distribution of scattered light and chlorophyll fluorescence in intact rice leaves. Plant, Cell and Environment 17, 105110.
  • Terashima I. (1986) Dorsiventrality in photosynthetic light response curves of a leaf. Journal of Experimental Botany 37, 399405.
  • Terashima I. & Evans J.R. (1988) Effects of light and nitrogen nutrition on the organization of the photosynthetic apparatus in spinach. Plant and Cell Physiology. 29, 143155.
  • Terashima I. & Inoue Y. (1984) Comparative photosynthetic properties of palisade tissue chloroplasts and spongy tissue chloroplasts of Camellia japonica L. Functional adjustment of the photosynthetic apparatus to light environment within a leaf. Plant and Cell Physiology 25, 555563.
  • Terashima I. & Inoue Y. (1985a) Palisade tissue chloroplasts and spongy tissue chloroplasts in spinach: biochemical and ultrastructural differences. Plant and Cell Physiology 26, 6375.
  • Terashima I. & Inoue Y. (1985b) Vertical gradient in photosynthetic properties of spinach chloroplasts dependent on intra-leaf light environment. Plant and Cell Physiology 26, 781785.
  • Terashima I. & Saeki T. (1983) Light environment within a leaf. 1. Optical properties of paradermal sections of Camellia leaves with special reference to differences in the optical properties of palisade and spongy tissues. Plant and Cell Physiology 24, 14931501.
  • Terashima I. & Saeki T. (1985) A new model for leaf photosynthesis incorporating the gradients of light environment and of photosynthetic properties of chloroplasts within a leaf. Annals of Botany 56, 489499.
  • Ustin S.L., Jacquemoud S. & Govaerts Y. (2001) Simulation of photon transport in a three-dimensional leaf: implications for photosynthesis. Plant, Cell and Environment 24, 10951103.
  • Vogelmann T.C. & Björn L.O. (1984) Measurement of light gradients and spectral regime in plant tissue with a fibre optic probe. Physiologia Plantarum 60, 361368.
  • Vogelmann T.C. & Evans J.R. (2002) Profiles of light absorption and chlorophyll within spinach leaves from chlorophyll fluorescence. Plant, Cell and Environment 25, 13131323.
  • Vogelmann T.C. & Han T. (2000) Measurement of gradients of absorbed light in spinach leaves from chlorophyll fluorescence profiles. Plant, Cell and Environment 23, 13031311.
  • Vogelmann T.C., Bornman J.F. & Josserand S. (1989) Photosynthetic light gradients and spectral regime within leaves of Medicago sativa. Proceedings of the Philosophical Transactions of the Royal Society, London B 323, 411421.
  • Vogelmann T.C., Knapp A.K., McClean T.M. & Smith W.K. (1988) Measurement of light within plant tissues with fiber optic microprobes. Physiologia Plantarum 72, 623630.